PA192 Secure hardware-based system design

Fakulta informatiky
podzim 2013
Rozsah
2/2/2. 6 kr. (plus ukončení). Ukončení: zk.
Vyučující
prof. Ing. Václav Přenosil, CSc. (přednášející)
RNDr. Moslem Amiri, Ph.D. (přednášející)
doc. RNDr. Zdeněk Matěj, Ph.D. (přednášející)
Mgr. Šimon Řeřucha, Ph.D. (přednášející)
RNDr. Radek Krejčí (přednášející)
Garance
doc. RNDr. Vlastislav Dohnal, Ph.D.
Katedra počítačových systémů a komunikací – Fakulta informatiky
Rozvrh
Po 8:00–9:50 B410
  • Rozvrh seminárních/paralelních skupin:
PA192/01: Čt 8:00–9:50 B202, M. Amiri, R. Krejčí, Z. Matěj, V. Přenosil
PA192/02: Čt 12:00–13:50 B202, M. Amiri, R. Krejčí, Z. Matěj, V. Přenosil
Předpoklady
• Design of digital systems
- encoding and data representation
- logic algebra and optimization of the logical terms
- implementation arithmetical and logical operations into digital systems
- basic structural components of the digital systems
- structure of the FPGA
- theoretical tools for design of the combination circuits
- theoretical tools for design of the sequential circuits
- basic operational units of the digital systems
- hazards of the digital systems
• Architecture of digital systems
- digital computer controllers and sequencers
- operational memory addressing methods
- operational and CACHE memory structure, operation principles
- interruption system principles
- direct memory access principles
- input / output devices
- power supply units, batteries, accumulators
• Digital systems dependability
- theory of reliability
- hardware and software reliability of the digital systems
- definition of the reliability, classification of the failures
- simulation methods of the digital systems and reliability
- fundamentals of theoretical and practical diagnostic
- failures model of the technical systems
- design methods of the combination and sequential logical circuits tests
- hardware and software functionality checking tools of the digital system
- hardware and software diagnostics tools of the digital systems
- microprocessors systems testing and ROM BIOS
Omezení zápisu do předmětu
Předmět je otevřen studentům libovolného oboru.
Cíle předmětu
The course is focused on architectures of secure digital systems, to ensure reliability, dependability and security of digital systems, assess and learn how to design safe and reliable digital systems. An important part of the course is to familiarize students with the principles and techniques of secure programming in language C and design of secure embedded systems. Course will present common problems and design of secure digital systems on real-world examples.
Osnova
  • 1) Design of Digital Systems
  • i) design elements of digital systems
  • ii) design of the combinational circuits
  • iii) design of the sequential circuits
  • 2) Design of Digital Systems
  • i) digital systems cores
  • ii) design systems and simulation of the digital systems
  • 3) Architecture of Digital Systems
  • i) overview of microcontrollers, programmable arrays and DSP
  • ii) a/d and d/a converters
  • iii) digital signal processing methods
  • 4) Digital Systems Dependability
  • i) reliability evaluation of the electronics devices
  • ii) failures model of the technical systems
  • iii) methods and models of the redundancy
  • iv) Markov reliability and availability models
  • 5) Architecting Speed
  • i) High Throughput
  • ii) Low Latency
  • iii) Timing
  • 6) Rolling up the pipeline
  • opposite technique than this, when a high throughput was a target
  • 7) Controls to manage the reuse of logic
  • implementing a state machine to direct data flow in case of more complex variations to the input of a resource
  • 8) Sharing logic resources
  • different resources are shared across different functional boundaries. This type of resource sharing should be used whenever there are functional blocks that can be used in other areas of the design or even in different modules (counters).
  • 9) The impact of RESET
  • an improper reset strategy can create an unnecessarily large design or makes synthesis and optimization tools ineffective
  • i) Design without RESET capability
  • ii) Design without SET capability
  • iii) Design without asynchronous RESET capability
  • iv) Impact of RAM RESET
  • v) Optimization using set/reset pins for logic implementation.
  • 10) The most common errors (wrong design, incorrect use of the preprocessor, uncontrolled return values are ignored warning compiler, etc.)
  • Assert, errno
  • Event logging (syslog, multilevel listings)
  • 11) Debugging (kdbg, valgrind, process memory dump, etc.)
  • Access rights - a process file, use suid / sgid bit
  • Access control - locking (critical sections, files, memory)
  • 12) Work with temporary files
  • Processing of sensitive data (passwords, secure file deletion)
  • 13) User input processing (processing of command line parameters, data validation, buffer overflow)
  • 14) Protection of SW against reverse engineering
Výukové metody
The course consists of theoretical training, laboratory exercises and solutions independently will project. Topic of the project will be specified in the opening hour of laboratory exercises. It is possible to design your own project topic, which must be approved by the teacher.
Metody hodnocení
• laboratory tasks with the defense - 16 points
• mid-term test - 20 points
• evaluated project - 14 points
• final written exam - 50 points
• passing boundary for ECTS assessment - 50 points
Vyučovací jazyk
Angličtina
Informace učitele
The course is divided into theoretical and practical parts. The practical part will be done on the hardware and software in the Laboratory of Architecture and design of digital systems. Study material and all technical documentation and manuals are available in English. Předmět je rozdělen na část teoretickou a praktickou. Praktická část bude probíhat na technickém a programovém vybavení v Laboratoři architektury a konstrukce číslicových systémů. Studijní podklady a veškerá technická dokumentace a návody k použití jsou k dispozici v jazyce anglickém.
Další komentáře
Studijní materiály
Předmět je vyučován každoročně.
Předmět je zařazen také v obdobích podzim 2014, podzim 2015, podzim 2016, podzim 2017, podzim 2018, podzim 2019, podzim 2020, podzim 2021, podzim 2022, podzim 2023.